#line 1 "complex-fxaa-preset1-in.txt" #define FXAA_HLSL_3 1 #define FXAA_PRESET 1 // Copyright (c) 2010 NVIDIA Corporation. All rights reserved. // // TO THE MAXIMUM EXTENT PERMITTED BY APPLICABLE LAW, THIS SOFTWARE IS PROVIDED // *AS IS* AND NVIDIA AND ITS SUPPLIERS DISCLAIM ALL WARRANTIES, EITHER EXPRESS // OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, IMPLIED WARRANTIES OF MERCHANTABILITY // AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL NVIDIA OR ITS SUPPLIERS // BE LIABLE FOR ANY SPECIAL, INCIDENTAL, INDIRECT, OR CONSEQUENTIAL DAMAGES // WHATSOEVER (INCLUDING, WITHOUT LIMITATION, DAMAGES FOR LOSS OF BUSINESS PROFITS, // BUSINESS INTERRUPTION, LOSS OF BUSINESS INFORMATION, OR ANY OTHER PECUNIARY LOSS) // ARISING OUT OF THE USE OF OR INABILITY TO USE THIS SOFTWARE, EVEN IF NVIDIA HAS // BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. #ifndef FXAA_GLSL_120 #define FXAA_GLSL_120 0 #endif #ifndef FXAA_GLSL_130 #define FXAA_GLSL_130 0 #endif #ifndef FXAA_HLSL_3 #define FXAA_HLSL_3 0 #endif #ifndef FXAA_HLSL_4 #define FXAA_HLSL_4 0 #endif /*--------------------------------------------------------------------------*/ #if FXAA_GLSL_120 // Requires, // #version 120 // #extension GL_EXT_gpu_shader4 : enable #define int2 ivec2 #define float2 vec2 #define float3 vec3 #define float4 vec4 #define FxaaBool3 bvec3 #define FxaaInt2 ivec2 #define FxaaFloat2 vec2 #define FxaaFloat3 vec3 #define FxaaFloat4 vec4 #define FxaaBool2Float(a) mix(0.0, 1.0, (a)) #define FxaaPow3(x, y) pow(x, y) #define FxaaSel3(f, t, b) mix((f), (t), (b)) #define FxaaTex sampler2D #endif /*--------------------------------------------------------------------------*/ #if FXAA_GLSL_130 // Requires "#version 130" or better #define int2 ivec2 #define float2 vec2 #define float3 vec3 #define float4 vec4 #define FxaaBool3 bvec3 #define FxaaInt2 ivec2 #define FxaaFloat2 vec2 #define FxaaFloat3 vec3 #define FxaaFloat4 vec4 #define FxaaBool2Float(a) mix(0.0, 1.0, (a)) #define FxaaPow3(x, y) pow(x, y) #define FxaaSel3(f, t, b) mix((f), (t), (b)) #define FxaaTex sampler2D #endif /*--------------------------------------------------------------------------*/ #if FXAA_HLSL_3 #define int2 float2 #define FxaaInt2 float2 #define FxaaFloat2 float2 #define FxaaFloat3 float3 #define FxaaFloat4 float4 #define FxaaBool2Float(a) (a) #define FxaaPow3(x, y) pow(x, y) #define FxaaSel3(f, t, b) ((f)*(!b) + (t)*(b)) #define FxaaTex sampler2D #endif /*--------------------------------------------------------------------------*/ #if FXAA_HLSL_4 #define FxaaInt2 int2 #define FxaaFloat2 float2 #define FxaaFloat3 float3 #define FxaaFloat4 float4 #define FxaaBool2Float(a) (a) #define FxaaPow3(x, y) pow(x, y) #define FxaaSel3(f, t, b) ((f)*(!b) + (t)*(b)) struct FxaaTex { SamplerState smpl; Texture2D tex; }; #endif /*--------------------------------------------------------------------------*/ #define FxaaToFloat3(a) FxaaFloat3((a), (a), (a)) /*--------------------------------------------------------------------------*/ float4 FxaaTexLod0(FxaaTex tex, float2 pos) { #if FXAA_GLSL_120 return texture2DLod(tex, pos.xy, 0.0); #endif #if FXAA_GLSL_130 return textureLod(tex, pos.xy, 0.0); #endif #if FXAA_HLSL_3 return tex2Dlod(tex, float4(pos.xy, 0.0, 0.0)); #endif #if FXAA_HLSL_4 return tex.tex.SampleLevel(tex.smpl, pos.xy, 0.0); #endif } /*--------------------------------------------------------------------------*/ float4 FxaaTexGrad(FxaaTex tex, float2 pos, float2 grad) { #if FXAA_GLSL_120 return texture2DGrad(tex, pos.xy, grad, grad); #endif #if FXAA_GLSL_130 return textureGrad(tex, pos.xy, grad, grad); #endif #if FXAA_HLSL_3 return tex2Dgrad(tex, pos.xy, grad, grad); #endif #if FXAA_HLSL_4 return tex.tex.SampleGrad(tex.smpl, pos.xy, grad, grad); #endif } /*--------------------------------------------------------------------------*/ float4 FxaaTexOff(FxaaTex tex, float2 pos, int2 off, float2 rcpFrame) { #if FXAA_GLSL_120 return texture2DLodOffset(tex, pos.xy, 0.0, off.xy); #endif #if FXAA_GLSL_130 return textureLodOffset(tex, pos.xy, 0.0, off.xy); #endif #if FXAA_HLSL_3 return tex2Dlod(tex, float4(pos.xy + (off * rcpFrame), 0, 0)); #endif #if FXAA_HLSL_4 return tex.tex.SampleLevel(tex.smpl, pos.xy, 0.0, off.xy); #endif } /*============================================================================ SRGB KNOBS ------------------------------------------------------------------------------ FXAA_SRGB_ROP - Set to 1 when applying FXAA to an sRGB back buffer (DX10/11). This will do the sRGB to linear transform, as ROP will expect linear color from this shader, and this shader works in non-linear color. ============================================================================*/ #define FXAA_SRGB_ROP 0 /*============================================================================ COMPILE-IN KNOBS ------------------------------------------------------------------------------ FXAA_PRESET - Choose compile-in knob preset 0-5. ------------------------------------------------------------------------------ FXAA_EDGE_THRESHOLD - The minimum amount of local contrast required to apply algorithm. 1.0/3.0 - too little 1.0/4.0 - good start 1.0/8.0 - applies to more edges 1.0/16.0 - overkill ------------------------------------------------------------------------------ FXAA_EDGE_THRESHOLD_MIN - Trims the algorithm from processing darks. Perf optimization. 1.0/32.0 - visible limit (smaller isn't visible) 1.0/16.0 - good compromise 1.0/12.0 - upper limit (seeing artifacts) ------------------------------------------------------------------------------ FXAA_SEARCH_STEPS - Maximum number of search steps for end of span. ------------------------------------------------------------------------------ FXAA_SEARCH_ACCELERATION - How much to accelerate search, 1 - no acceleration 2 - skip by 2 pixels 3 - skip by 3 pixels 4 - skip by 4 pixels ------------------------------------------------------------------------------ FXAA_SEARCH_THRESHOLD - Controls when to stop searching. 1.0/4.0 - seems to be the best quality wise ------------------------------------------------------------------------------ FXAA_SUBPIX_FASTER - Turn on lower quality but faster subpix path. Not recomended, but used in preset 0. ------------------------------------------------------------------------------ FXAA_SUBPIX - Toggle subpix filtering. 0 - turn off 1 - turn on 2 - turn on full (ignores FXAA_SUBPIX_TRIM and CAP) ------------------------------------------------------------------------------ FXAA_SUBPIX_TRIM - Controls sub-pixel aliasing removal. 1.0/2.0 - low removal 1.0/3.0 - medium removal 1.0/4.0 - default removal 1.0/8.0 - high removal 0.0 - complete removal ------------------------------------------------------------------------------ FXAA_SUBPIX_CAP - Insures fine detail is not completely removed. This is important for the transition of sub-pixel detail, like fences and wires. 3.0/4.0 - default (medium amount of filtering) 7.0/8.0 - high amount of filtering 1.0 - no capping of sub-pixel aliasing removal ============================================================================*/ #ifndef FXAA_PRESET #define FXAA_PRESET 3 #endif /*--------------------------------------------------------------------------*/ #if (FXAA_PRESET == 0) #define FXAA_EDGE_THRESHOLD (1.0/4.0) #define FXAA_EDGE_THRESHOLD_MIN (1.0/12.0) #define FXAA_SEARCH_STEPS 2 #define FXAA_SEARCH_ACCELERATION 4 #define FXAA_SEARCH_THRESHOLD (1.0/4.0) #define FXAA_SUBPIX 1 #define FXAA_SUBPIX_FASTER 1 #define FXAA_SUBPIX_CAP (2.0/3.0) #define FXAA_SUBPIX_TRIM (1.0/4.0) #endif /*--------------------------------------------------------------------------*/ #if (FXAA_PRESET == 1) #define FXAA_EDGE_THRESHOLD (1.0/8.0) #define FXAA_EDGE_THRESHOLD_MIN (1.0/16.0) #define FXAA_SEARCH_STEPS 4 #define FXAA_SEARCH_ACCELERATION 3 #define FXAA_SEARCH_THRESHOLD (1.0/4.0) #define FXAA_SUBPIX 1 #define FXAA_SUBPIX_FASTER 0 #define FXAA_SUBPIX_CAP (3.0/4.0) #define FXAA_SUBPIX_TRIM (1.0/4.0) #endif /*--------------------------------------------------------------------------*/ #if (FXAA_PRESET == 2) #define FXAA_EDGE_THRESHOLD (1.0/8.0) #define FXAA_EDGE_THRESHOLD_MIN (1.0/24.0) #define FXAA_SEARCH_STEPS 8 #define FXAA_SEARCH_ACCELERATION 2 #define FXAA_SEARCH_THRESHOLD (1.0/4.0) #define FXAA_SUBPIX 1 #define FXAA_SUBPIX_FASTER 0 #define FXAA_SUBPIX_CAP (3.0/4.0) #define FXAA_SUBPIX_TRIM (1.0/4.0) #endif /*--------------------------------------------------------------------------*/ #if (FXAA_PRESET == 3) #define FXAA_EDGE_THRESHOLD (1.0/8.0) #define FXAA_EDGE_THRESHOLD_MIN (1.0/24.0) #define FXAA_SEARCH_STEPS 16 #define FXAA_SEARCH_ACCELERATION 1 #define FXAA_SEARCH_THRESHOLD (1.0/4.0) #define FXAA_SUBPIX 1 #define FXAA_SUBPIX_FASTER 0 #define FXAA_SUBPIX_CAP (3.0/4.0) #define FXAA_SUBPIX_TRIM (1.0/4.0) #endif /*--------------------------------------------------------------------------*/ #if (FXAA_PRESET == 4) #define FXAA_EDGE_THRESHOLD (1.0/8.0) #define FXAA_EDGE_THRESHOLD_MIN (1.0/24.0) #define FXAA_SEARCH_STEPS 24 #define FXAA_SEARCH_ACCELERATION 1 #define FXAA_SEARCH_THRESHOLD (1.0/4.0) #define FXAA_SUBPIX 1 #define FXAA_SUBPIX_FASTER 0 #define FXAA_SUBPIX_CAP (3.0/4.0) #define FXAA_SUBPIX_TRIM (1.0/4.0) #endif /*--------------------------------------------------------------------------*/ #if (FXAA_PRESET == 5) #define FXAA_EDGE_THRESHOLD (1.0/8.0) #define FXAA_EDGE_THRESHOLD_MIN (1.0/24.0) #define FXAA_SEARCH_STEPS 32 #define FXAA_SEARCH_ACCELERATION 1 #define FXAA_SEARCH_THRESHOLD (1.0/4.0) #define FXAA_SUBPIX 1 #define FXAA_SUBPIX_FASTER 0 #define FXAA_SUBPIX_CAP (3.0/4.0) #define FXAA_SUBPIX_TRIM (1.0/4.0) #endif /*--------------------------------------------------------------------------*/ #define FXAA_SUBPIX_TRIM_SCALE (1.0/(1.0 - FXAA_SUBPIX_TRIM)) /*============================================================================ HELPERS ============================================================================*/ // Return the luma, the estimation of luminance from rgb inputs. // This approximates luma using one FMA instruction, // skipping normalization and tossing out blue. // FxaaLuma() will range 0.0 to 2.963210702. float FxaaLuma(float3 rgb) { return rgb.y * (0.587/0.299) + rgb.x; } /*--------------------------------------------------------------------------*/ float3 FxaaLerp3(float3 a, float3 b, float amountOfA) { return (FxaaToFloat3(-amountOfA) * b) + ((a * FxaaToFloat3(amountOfA)) + b); } /*--------------------------------------------------------------------------*/ // Support any extra filtering before returning color. float3 FxaaFilterReturn(float3 rgb) { #if FXAA_SRGB_ROP // Do sRGB encoded value to linear conversion. return FxaaSel3( rgb * FxaaToFloat3(1.0/12.92), FxaaPow3( rgb * FxaaToFloat3(1.0/1.055) + FxaaToFloat3(0.055/1.055), FxaaToFloat3(2.4)), rgb > FxaaToFloat3(0.04045)); #else return rgb; #endif } float3 FxaaPixelShader( // Output of FxaaVertexShader interpolated across screen. // xy -> actual texture position {0.0 to 1.0} float2 pos, // Input texture. FxaaTex tex, // RCPFRAME SHOULD PIXEL SHADER CONSTANTS!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! // {1.0/frameWidth, 1.0/frameHeight} float2 rcpFrame) { float3 rgbN = FxaaTexOff(tex, pos.xy, FxaaInt2( 0,-1), rcpFrame).xyz; float3 rgbW = FxaaTexOff(tex, pos.xy, FxaaInt2(-1, 0), rcpFrame).xyz; float3 rgbM = FxaaTexOff(tex, pos.xy, FxaaInt2( 0, 0), rcpFrame).xyz; float3 rgbE = FxaaTexOff(tex, pos.xy, FxaaInt2( 1, 0), rcpFrame).xyz; float3 rgbS = FxaaTexOff(tex, pos.xy, FxaaInt2( 0, 1), rcpFrame).xyz; float lumaN = FxaaLuma(rgbN); float lumaW = FxaaLuma(rgbW); float lumaM = FxaaLuma(rgbM); float lumaE = FxaaLuma(rgbE); float lumaS = FxaaLuma(rgbS); float rangeMin = min(lumaM, min(min(lumaN, lumaW), min(lumaS, lumaE))); float rangeMax = max(lumaM, max(max(lumaN, lumaW), max(lumaS, lumaE))); float range = rangeMax - rangeMin; if(range < max(FXAA_EDGE_THRESHOLD_MIN, rangeMax * FXAA_EDGE_THRESHOLD)) { return FxaaFilterReturn(rgbM); } #if FXAA_SUBPIX > 0 #if FXAA_SUBPIX_FASTER float3 rgbL = (rgbN + rgbW + rgbE + rgbS + rgbM) * FxaaToFloat3(1.0/5.0); #else float3 rgbL = rgbN + rgbW + rgbM + rgbE + rgbS; #endif #endif #if FXAA_SUBPIX != 0 float lumaL = (lumaN + lumaW + lumaE + lumaS) * 0.25; float rangeL = abs(lumaL - lumaM); #endif #if FXAA_SUBPIX == 1 float blendL = max(0.0, (rangeL / range) - FXAA_SUBPIX_TRIM) * FXAA_SUBPIX_TRIM_SCALE; blendL = min(FXAA_SUBPIX_CAP, blendL); #endif #if FXAA_SUBPIX == 2 float blendL = rangeL / range; #endif float3 rgbNW = FxaaTexOff(tex, pos.xy, FxaaInt2(-1,-1), rcpFrame).xyz; float3 rgbNE = FxaaTexOff(tex, pos.xy, FxaaInt2( 1,-1), rcpFrame).xyz; float3 rgbSW = FxaaTexOff(tex, pos.xy, FxaaInt2(-1, 1), rcpFrame).xyz; float3 rgbSE = FxaaTexOff(tex, pos.xy, FxaaInt2( 1, 1), rcpFrame).xyz; #if (FXAA_SUBPIX_FASTER == 0) && (FXAA_SUBPIX > 0) rgbL += (rgbNW + rgbNE + rgbSW + rgbSE); rgbL *= FxaaToFloat3(1.0/9.0); #endif float lumaNW = FxaaLuma(rgbNW); float lumaNE = FxaaLuma(rgbNE); float lumaSW = FxaaLuma(rgbSW); float lumaSE = FxaaLuma(rgbSE); float edgeVert = abs((0.25 * lumaNW) + (-0.5 * lumaN) + (0.25 * lumaNE)) + abs((0.50 * lumaW ) + (-1.0 * lumaM) + (0.50 * lumaE )) + abs((0.25 * lumaSW) + (-0.5 * lumaS) + (0.25 * lumaSE)); float edgeHorz = abs((0.25 * lumaNW) + (-0.5 * lumaW) + (0.25 * lumaSW)) + abs((0.50 * lumaN ) + (-1.0 * lumaM) + (0.50 * lumaS )) + abs((0.25 * lumaNE) + (-0.5 * lumaE) + (0.25 * lumaSE)); bool horzSpan = edgeHorz >= edgeVert; float lengthSign = horzSpan ? -rcpFrame.y : -rcpFrame.x; if(!horzSpan) lumaN = lumaW; if(!horzSpan) lumaS = lumaE; float gradientN = abs(lumaN - lumaM); float gradientS = abs(lumaS - lumaM); lumaN = (lumaN + lumaM) * 0.5; lumaS = (lumaS + lumaM) * 0.5; bool pairN = gradientN >= gradientS; if(!pairN) lumaN = lumaS; if(!pairN) gradientN = gradientS; if(!pairN) lengthSign *= -1.0; float2 posN; posN.x = pos.x + (horzSpan ? 0.0 : lengthSign * 0.5); posN.y = pos.y + (horzSpan ? lengthSign * 0.5 : 0.0); gradientN *= FXAA_SEARCH_THRESHOLD; float2 posP = posN; float2 offNP = horzSpan ? FxaaFloat2(rcpFrame.x, 0.0) : FxaaFloat2(0.0f, rcpFrame.y); float lumaEndN = lumaN; float lumaEndP = lumaN; bool doneN = false; bool doneP = false; #if FXAA_SEARCH_ACCELERATION == 1 posN += offNP * FxaaFloat2(-1.0, -1.0); posP += offNP * FxaaFloat2( 1.0, 1.0); #endif #if FXAA_SEARCH_ACCELERATION == 2 posN += offNP * FxaaFloat2(-1.5, -1.5); posP += offNP * FxaaFloat2( 1.5, 1.5); offNP *= FxaaFloat2(2.0, 2.0); #endif #if FXAA_SEARCH_ACCELERATION == 3 posN += offNP * FxaaFloat2(-2.0, -2.0); posP += offNP * FxaaFloat2( 2.0, 2.0); offNP *= FxaaFloat2(3.0, 3.0); #endif #if FXAA_SEARCH_ACCELERATION == 4 posN += offNP * FxaaFloat2(-2.5, -2.5); posP += offNP * FxaaFloat2( 2.5, 2.5); offNP *= FxaaFloat2(4.0, 4.0); #endif for(int i = 0; i < FXAA_SEARCH_STEPS; i++) { #if FXAA_SEARCH_ACCELERATION == 1 if(!doneN) lumaEndN = FxaaLuma(FxaaTexLod0(tex, posN.xy).xyz); if(!doneP) lumaEndP = FxaaLuma(FxaaTexLod0(tex, posP.xy).xyz); #else if(!doneN) lumaEndN = FxaaLuma(FxaaTexGrad(tex, posN.xy, offNP).xyz); if(!doneP) lumaEndP = FxaaLuma(FxaaTexGrad(tex, posP.xy, offNP).xyz); #endif doneN = doneN || (abs(lumaEndN - lumaN) >= gradientN); doneP = doneP || (abs(lumaEndP - lumaN) >= gradientN); if(doneN && doneP) break; if(!doneN) posN -= offNP; if(!doneP) posP += offNP; } float dstN = horzSpan ? pos.x - posN.x : pos.y - posN.y; float dstP = horzSpan ? posP.x - pos.x : posP.y - pos.y; bool directionN = dstN < dstP; lumaEndN = directionN ? lumaEndN : lumaEndP; if(((lumaM - lumaN) < 0.0) == ((lumaEndN - lumaN) < 0.0)) lengthSign = 0.0; float spanLength = (dstP + dstN); dstN = directionN ? dstN : dstP; float subPixelOffset = (0.5 + (dstN * (-1.0/spanLength))) * lengthSign; float3 rgbF = FxaaTexLod0(tex, FxaaFloat2( pos.x + (horzSpan ? 0.0 : subPixelOffset), pos.y + (horzSpan ? subPixelOffset : 0.0))).xyz; #if FXAA_SUBPIX == 0 return FxaaFilterReturn(rgbF); #else return FxaaFilterReturn(FxaaLerp3(rgbL, rgbF, blendL)); #endif } sampler2D _MainTex; float4 _MainTex_TexelSize; float4 main (float2 uv : TEXCOORD0) : COLOR0 { return float4(FxaaPixelShader(uv.xy, _MainTex, _MainTex_TexelSize.xy).xyz, 0.0f); }